One of the key tenets is that bitcoin block data is easy to distribute widely. Information wants to be free. One of the ways we may keep bitcoin healthy and free is finding alternative ways to distribute block chain data. This provides resilience in case the P2P mesh network is attacked.

My personal favorite is satellite distribution, something I have been working on quietly in the background. Satellites means one of two things:

1. Buy some bandwidth on an existing satellite.

2. Launch your own satellite.

Buying bandwidth is the most cost-effective, and readily attainable method today. However, not just any satellite channel will do. Bitcoin requires a dedicated, one-to-many broadcast mechanism. This is like renting a TV channel -- although at much lower bandwidth requirements (1MB every minute or two).

Nanosatellites have recently cut satellite costs down from the absurd, traditional $20m+ build, $50m+ launch. There is now a standardized cubesat size. Two innovations reduced launch costs down into the $100k's range: (1) Many organizations collaborate together (rideshare), paying a portion of the launch cost. Sometimes 27 or more cubesats are launched at once. (2) These clusters of cubesats are launched as a secondary payload. A primary payload has priority, which means secondary payloads are sometimes not launched into a proper orbit. With these two factors, cubesat construction and launch is lowered to a reachable price: $2m or so.

Several people, including some investors, in the bitcoin community have privately expressed interest. It seemed like a good time to move forward with Phase 1 of the project.

A word about government involvement: Set expectations properly. There are three points at which government is inevitably involved, at some level: (a) getting launch approval, (b) ground station(s) inevitably must be located in some useful geolocation, and (c) frequency selection. Fundamentally, these satellites will be broadcasting public, not-encrypted blockchain data, so the content should not be an issue.

Glad you brought this up Jeff. I think this is a brilliant step forward to having Bitcoin transactions survive despite the internet being shut down. I propose utilizing the existing amateur radio frequencies to propagate Blockchain transactions. Satellites, in conjunction with converted wireless routers (HSMM-MESH), can enable a cheaply configured network that can operate with minimal electricity and no internet connection. These transaction terminals can also be configured to have Bluetooth low energy attachments that would allow it to interface with mobile devices.

Amateur Radio Rules

Under Title 47- Part 97 of the FCC amateur radio services, I believe transmitting Blockchain transmission is a good use of the amateur radio frequencies. 97.1 Basis and purpose "(e) Continuation and extension of the amateur's unique ability to enhance international goodwill." And I don't see it violating any prohibited transmissions, this one in particular:

97.113 Prohibited transmissions "(2) Communications for hire or for material compensation, direct or indirect, paid or promised, except as otherwise provided in these rules" I believe Blockchain transmissions are not classified as material compensation, but rather a ledger update, or an information bulletin update. If the Blockchain protocol cannot be broadcast legally under Part 97, I recommend taking the concept in a direction that would comply with Part 15 rules.

Firmware

One popular way to access amateur only frequencies is to modify an off-the-shelf access point with custom firmware. This custom firmware is freely available on the Internet from projects such as DD-WRT and OpenWrt. The most popular piece of hardware that is modified is the Linksys WRT54GL because of the widespread availability of both the hardware and third party firmware.

Current Implementation

HSMM-MESH is meant to be the high speed digital progression of existing Amateur Radio practices and used only by licensed Amateur Radio operators. It also is suitable for permanent installation, providing high speed digital Amateur Radio communications over a region with line-of-sight RF access to at least one of the participating nodes. It is a fully self-sufficient network and does not require any other infrastructure or resources to be in place for its participating nodes to be able to communicate with each other.

Broadband-Hamnet is the self configuring ham network. Hams have transferred IP data by radio for ages. Mesh nodes were originally consumer wireless routers but changed function when the firmware was changed. Mesh nodes are self discovering, self configuring, self advertising and fault tolerant. Mesh nodes are small, portable, low-power and inexpensive. They are easily battery powered. Mesh nodes can easily have a range of 10 miles or more using stock power and gain antennas if you have true line of sight. Mesh nodes on channels 1-6 use FCC part 97 rules instead of part 15. This allows big antennas, more power, other changes. Data is data. It can be IP Video, VOIP, LAN traffic between computers, clients to a web server/FTP/NAS/printer, keyboard chat, hop to the Internet, etc

Frequencies

802.11a802.11b802.11g802.11n

Identification

As with any amateur radio mode stations must identify at least once every 10 minutes. One acceptable method for doing so is to transmit one’s call sign inside an ICMP echo request (commonly known as a ping). If the access point is set to "master" then the user’s call sign may be set as the "SSID" and therefore will be transmitted at regular intervals.

It is also possible to use a DDNS "push" request to automatically send an amateur callsign in plain text (ASCII) every 10 minutes. This requires that a computers hostname be set to the callsign of the amateur operator and that the DHCP servers lease time be set to less than or equal to 10 minutes. With this method implemented the computer will send a DNS "push" request that includes the local computers hostname every time the DHCP lease is renewed. This method is supported by all modern operating systems including but not limited to Windows, Mac OS X, BSD, and Linux. 802.11 hardware may transmit and receive the entire time it is powered on even if the user is not sending data.

Or contact me privately if you want a one-time-use donation address, or if you want to be identified on the list of donors as someone other than "anonymous donor". Wallet funds for this project are stored and securely separately from my personal funds, for the record. This is a donation, not an investment.

Very pleased to announce a generous 25 BTC donation from BitcoinGrant.org, worth $27,000 as of this writing.

Updates will be posted to this thread (and eventually a website), once the aerospace engineers are fully contracted and engaged.

The meetings so far with engineers have been quite positive. If the project proceeds as a non-profit, it is possible that amateur radio frequencies may be used for transmission, as another poster mentions upthread.